Asymmetric evaporator

The invention claimed is: 1. A falling film evaporator for a heating ventilation and air conditioning (HVAC) system comprising: an evaporator housing; a plurality of evaporator tubes disposed in the evaporator housing and arranged into one or more tube bundles, through which a volume of thermal energy transfer medium is flowed; a plurality of tube sheets supportive of the plurality of evaporator tubes; a first wall member and a second wall member extending vertically at opposite lateral sides of the plurality of evaporator tubes, the first wall member and the second wall member defining an inner vapor passage therebetween, defining a first outer vapor passage between the first wall member and the evaporator housing, and defining a second outer vapor passage between the second wall member and the evaporator housing; and a vapor outlet disposed at an evaporator housing wall to direct vapor refrigerant from the evaporator housing; wherein a first gap between a first wall member lower edge and a tube sheet base of the plurality of tube sheets is greater than a second gap between a second wall member lower edge and the tube sheet base of the plurality of tube sheets; and wherein the second gap is disposed nearer to the vapor outlet than the first gap, biasing the flow of vapor refrigerant from the plurality of evaporator tubes toward a lateral side of the evaporator opposite the vapor outlet, thereby decreasing an amount of entrained liquid refrigerant in the flow of vapor refrigerant reaching the vapor outlet. 2. The falling film evaporator of claim 1 , wherein the first wall member is vertically shorter than the second wall member. 3. The falling film evaporator of claim 1 , wherein a height of a tube sheet base at the first gap is lower than a height of a tube sheet base at the second gap. 4. The falling film evaporator of claim 1 , wherein a first distance from the first wall member to the vapor outlet of the falling film evaporator is greater than a second distance from the second wall member to the vapor outlet. 5. The falling film evaporator of claim 1 , wherein a difference between the first gap and the second gap is 1 inch. 6. The falling film evaporator of claim 1 , further comprising a vertically extending axis bisecting the evaporator housing, wherein fewer evaporator tubes are disposed at a first side of the vertically extending axis than disposed at a second side of the vertically extending axis. 7. A heating, ventilation and air conditioning (HVAC) system comprising: a condenser flowing a flow of refrigerant therethrough; a compressor in flow communication with the condenser; a falling film evaporator in flow communication with the condenser via refrigerant inlet and in flow communication with the compressor via a vapor outlet including: an evaporator housing; a plurality of evaporator tubes disposed in the evaporator housing and arranged into one or more tube bundles, through which a volume of thermal energy transfer medium is flowed; a plurality of tube sheets supportive of the plurality of evaporator tubes; a first wall member and a second wall member extending vertically at opposite lateral sides of the plurality of evaporator tubes, the first wall member and the second wall member defining an inner vapor passage therebetween, defining a first outer vapor passage between the first wall member and the evaporator housing, and defining a second outer vapor passage between the second wall member and the evaporator housing; and a vapor outlet disposed at an evaporator housing wall to direct vapor refrigerant from the evaporator housing; wherein a first gap between a first wall member lower edge and a tube sheet base of the plurality of tube sheets is greater than a second gap between a second wall member lower edge and the tube sheet base of the plurality of tube sheets; and wherein the second gap is disposed nearer to the vapor outlet than the first gap thereby biasing the flow of vapor refrigerant from the plurality of evaporator tubes toward a lateral side of the evaporator opposite the vapor outlet, thereby decreasing an amount of entrained liquid refrigerant in the flow of vapor refrigerant reaching the vapor outlet. 8. The HVAC system of claim 7 , wherein the first wall member is vertically shorter than the second wall member. 9. The HVAC system of claim 7 , wherein a height of a tube sheet base at the first gap is lower than a height of a tube sheet base at the second gap. 10. The HVAC system of claim 7 , wherein a first distance from the first wall member to the vapor outlet of the falling film evaporator is greater than a second distance from the second wall member to the vapor outlet. 11. The HVAC system of claim 7 , wherein a difference between the first gap and the second gap is 1 inch. 12. The HVAC system of claim 7 , further comprising a vertically extending axis bisecting the evaporator housing, fewer evaporator tubes are disposed at a first side of the vertically extending axis than disposed at a second side of the vertically extending axis.